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Mechanisms involved in vibratory destabilization of NAPL ganglia in sands

Journal Article · · Journal of Environmental Engineering
;  [1]
  1. Kansas State Univ., Manhattan, KS (United States). Dept. of Civil Engineering
+ Show Author Affiliations
Immiscible liquids when spilled into the ground or leaked from underground storage tanks tend to remain trapped in the form of discrete ganglia due to strong capillary forces. These ganglia often have low solubility in water and may remain in the subsurface over long periods of time creating a continuous source of pollution. Previous studies, which were exploratory in nature, showed that creation of localized vibrations could recover high percentages of trapped ganglia. In this paper, the mechanisms involved in the vibratory destabilization of ganglia are analyzed using results from two sets of experimental studies. It is postulated that, when vibrations result in compaction of sands, viscous pressures tend to destabilize the ganglia by splitting them whereas buoyancy pressures increase the maximum sustainable lengths. The roles of viscous and buoyancy pressures are reversed when vibrations result in increased porosities due to expansion (dilation) of soil. The volumes of trapped ganglia recovered during the experiments are consistent with these postulates. Experimental results also indicate significant recoveries in the cases where the ganglia are supposed to remain stable. These recoveries are attributed to the transient particle rearrangement during vibrations, which is concluded to be an important mechanism.
Sponsoring Organization:
National Science Foundation, Washington, DC (United States)
OSTI ID:
418030
Journal Information:
Journal of Environmental Engineering, Journal Name: Journal of Environmental Engineering Journal Issue: 12 Vol. 122; ISSN 0733-9372; ISSN JOEEDU
Country of Publication:
United States
Language:
English

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Related Subjects

02 PETROLEUM
ENVIRONMENTAL TRANSPORT
GROUND WATER
OIL SPILLS
PETROLEUM PRODUCTS
POROSITY
REMEDIAL ACTION
SAND
STABILIZATION
WATER POLLUTION